FR2683879A1 - HYDRAULIC ADJUSTABLE SHOCK ABSORBER COMPRISING AN ELECTROMAGNETIC DAMPING VALVE. - Google Patents

Abstract

The invention relates more particularly to the manufacture and assembly of the damping valve of an adjustable hydraulic damper. The shock absorber comprises a working cylinder (2) shared by a piston connected to a piston rod in two chambers filled with a damping liquid. The cylinder is surrounded by a casing tube (12) to which is laterally fixed a damping valve (3) controlling the passage section of a flow channel (8) to vary the damping force. The valve comprises a coil (4), an armature (5), a valve (6) and a seat (7). In order to be able to adjust the stroke of the valve after assembly, the connection between the armature (5) and the valve (6) is axially adjustable. Applicable to the suspension of motor vehicles.

Description

The invention relates to an oscillation damper

  adjustable hydraulic system, comprising a piston attached to a piston rod and dividing the interior of a working cylinder into two working chambers filled with damping liquid, damping on which a damping valve with electromagnetic control acts on a at least partly to vary the damping force, the valve being constituted by a coil, a magnetic armature, a

valve and a valve seat.

  Adjustable hydraulic dampers are already known (for example by DE 37 12 477 and

  DE 37 19 113) whose damping force is adjusted

  For this purpose, a damping valve, provided with an axially movable valve and a valve seat,

  controls the useful cross-section of an amorphous

  The damping valve, with electromagnetic control, consists of a number of parts, such as for example a magnetic armature, a valve and a frame guide which surrounds the magnetic armature, parts which have tolerances due At the manufacturing stage For functional reasons, the armature of the electromagnet must correspond very exactly, at its front side, to the tube formed by the armature guide while at the same time the conical valve occupies the closed position If there are tolerances of

  manufacture in the axial direction, the stroke of the valves varies from one valve to another. To exclude such tolerances or dispersions

  the inner parts could be made with an extra thickness and adapted to the needs,

  as a result of a measuring operation, by machining with chip removal The effects of such

  The persions could also be canceled by the fitting of prefabricated adjustment washers, although this requires the provision in the manufacture of an assortment of washers of appropriately scaled thicknesses. These two methods are however not suitable for a mass production

  such damping dampers with electromagnetic control.

  The object of the invention is to realize the armament

  damping valve damping valve so that the stroke of the valve is adjustable after the

mounting.

  For this purpose, the invention provides that a

  Adjustment system is coordinated with the flap.

  According to an essential characteristic of the invention, the connection between the armature and the valve

is made axially adjustable.

  This solution has the advantage that the axially adjustable connection makes it possible to compensate for tolerances according to a method which is applicable without problems under conditions of mass production and which requires

  minimal expenditure in the assembly

  allows the exact adjustment of the assembly dimension (overall length) of the interior parts, with the

  the possibility of offsetting without difficulty both

  only positive tolerances.

  Another essential feature of the invention provides that the connection between the armature and the valve is made by a set screw It is

  advantageous to provide this screw in the inte-

  armature, so that the flapper can

press on the adjusting screw.

  Another embodiment provides that the valve is provided, on the side directed towards the armature,

  threaded part which penetrates into a part corresponding to

of the armature.

  In order to be able to make a precise adjustment of the assembly dimension of the valve parts as a result of assembly, an essential feature is that the aforesaid connection is accessible and adjustable from the outside through recesses. An advantage of this solution is that following an adjustment, the recesses can be closed without any problem.

closure plugs or the like.

  Another characteristic of the invention provides for the arrangement inside the armature of a spring that can be prestressed with the aid of an axially adjustable support bowl.

  bowl is also accessible from the outside.

  laughing. According to another embodiment, the link

  between the reinforcement and the flap is accessible from outside

  The advantage is thus obtained that not only the assembly dimension of the inner parts of the valve is adjustable from the outside, but that the preload of the valve loaded by the spring and the bowl of the corresponding support is adjustable at the same time, also from the outside, so that the adjustment can be made following the complete assembly of the damping valve on the damper. According to another advantageous embodiment, an axially adjustable hollow screw is provided as an adjustment device, a screw whose front side forms

  at the same time the seat of the valve.

  Other features and benefits of

  the invention will become clearer from the description of

  following examples of preferred but not limiting embodiments, as well as

  2, in which: FIG. 1 is a cross-section of a shock absorber provided with a damping valve with

  electromagnetic control; Figure 2 is a detail, in axial section, showing another embodiment of the guide-armature, the magnetic armature and the valve; and Figure 3 shows another embodiment of the adjustment device. The cross section shown in FIG. 1 of a damper 1 relates to one embodiment of the invention for which, for simplicity, the working piston and the piston rod have not been represented. The working cylinder 2 is surrounded by an envelope tube 12 on the outer peripheral surface of which is installed an electrically operated damping valve 3 This valve makes it possible to vary the section of a flow channel 8 so as to change the damping force of the damper 1 The valve 3 consists essentially of a coil 4, a frame 5 and a valve 6 A latter is coordinated a valve seat 7 which defines the flow channel

  8, which can be opened or closed by the valve.

  The armature 5 is provided with a set screw 9 on which the valve 6 rests, support which is therefore adjustable. By the correct positioning of the adjusting screw 9, the distance between the seat 7 and the upper side of the The frame 5 can be adjusted to a suitable X dimension, which allows excellent valve stroke adjustment. Before the closure cap 13 is put in place, a suitable tool is engaged through the hole for the plug 13. in the hexagon socket of the adjusting screw 9, allows positioning

  this screw so that the assembly dimension X corresponds to the desired value.

  The preload of the valve 6 can be adjusted by means of the spring 10 and the support cup 11 by screwing the closure plug 13 to the desired position on the rod 14. The embodiment shown in FIG. controlled damping, the various parts necessary for the piloting being

  housed inside the valve 6.

  The detail of Figure 2 shows in particular a

  reinforcement guide 15, also of a damping valve

  in the cylindrical inner space of which the armature 5 and the valve 6 are connected to each other by a threaded part 9a. In this embodiment, an adjustment such as that described above is also possible. through the hole for the closure cap 13 and with the aid of a hexagon socket of the threaded part 9a. This embodiment relates to a direct-acting damping valve, through which the flow channel 8 can also be

  in steps or continuously

  the armature 5 with respect to the valve 6 by means of

  the adjusting screw 9a, the assembly dimension X is also

  optimally adjustable under conditions of

  mass production of this embodiment.

  FIG. 3 relates to a frame guide 15 in the lower part of which is provided an adjustment device in the form of a hollow screw 16 which is

  displaceable axially with respect to the armature 5 and with respect to the valve 6 The hollow screw 16 serves at the same time as a seat for the damping valve 3.

Claims (10)

  1 Hydraulic oscillation damper   a piston attached to a piston rod and dividing the interior of a working cylinder (2) into two working chambers filled with damping liquid, on which a damping valve (3) is   electromagnetic control acts on a channel of   at least partly to vary the damping force, the valve consisting of a coil (4), a magnetic armature (5), a valve (6) and a seat valve (7), characterized in that an adjustment device is coordinated with the valve (6).   Shock absorber according to claim 1, characterized   characterized in that the adjustment device is formed by an axially adjustable connection between the armature (5) and the valve (6).   Shock absorber according to claim 2, characterized   in that the connection is made by a screw of setting (9).   Shock absorber according to claim 3, characterized   characterized in that the adjusting screw (9) is provided in the inner part of the armature (5), on which presses the valve (6).   Shock absorber according to claim 1, characterized   characterized in that valve (6) is provided with a threaded piece (9a) on the side directed towards the frame (5), threaded part which penetrates into a corresponding part of the frame (5).   Shock absorber according to Claim 2, characterized in that connection is accessible and adjustable from   outside through recesses. Shock absorber according to Claim 1, characterized in that a spring (10) is arranged in the shaft.   inside the frame (5) and can be   prestressed by means of a support bowl (11)   glable axially. 8. Shock absorber according to claim 7, characterized in that the support bowl (11) is accessible from the outside.   Shock absorber according to claims 6 and 8   taken together, characterized in that the connection between the armature and the flap is accessible from outside to through the support bowl (11).   Shock absorber according to claim 1, characterized   characterized in that the adjustment device is formed by an axially adjustable hollow screw (16)   front side forms the seat of the valve.